Driving circuit and semiconductor module

1. A driving circuit for driving a switching element in accordance with an input signal, the driving circuit comprising: a driving unit connected to a control terminal of the switching element, the driving unit configured to switch, in accordance with the input signal, which one of a source current and a sink current is to be fed to the control terminal of the switching element; a first limiter configured to operate with a predetermined time constant and to limit a control voltage at the control terminal of the switching element to a first reference voltage when overcurrent is detected for a collector current of the switching element; and a second limiter configured to, when the overcurrent is detected, start lowering the control voltage earlier than an operation start timing of the first limiter that is determined by the time constant, wherein the first reference voltage is higher than a threshold voltage of the switching element, and the second limiter lowers the control voltage to a second reference voltage that is higher than the first reference voltage, when the overcurrent is detected.

2. The driving circuit as set forth in claim 1 , wherein the second limiter includes a limitation transistor configured to switch whether to connect the control terminal of the switching element to a reference potential, and when the overcurrent is detected, the limitation transistor connects the control terminal of the switching element to the reference potential before the first limiter starts limiting the control voltage.

3. The driving circuit as set forth in claim 2 , wherein the first limiter includes an operational amplifier that is configured to operate with the time constant, has an output terminal connected to the control terminal of the switching element and is configured to regulate the control voltage based on a difference between the control voltage and the first reference voltage, and when the overcurrent is detected, the second limiter controls the limitation transistor to connect the control terminal of the switching element to the reference potential before the operational amplifier starts limiting the control voltage.

4. The driving circuit as set forth in claim 3 , wherein the second limiter includes: a control voltage comparator configured to compare the control voltage and the second reference voltage and output a result of the comparison; and a control circuit configured to control the limitation transistor to connect the control terminal of the switching element to the reference potential when the overcurrent is detected and the control voltage is higher than the second reference voltage.

5. The driving circuit as set forth in claim 3 , wherein the second limiter includes a control circuit configured to control the limitation transistor to connect the control terminal of the switching element to the reference potential until a predetermined period elapses after the overcurrent is detected.

6. The driving circuit as set forth in claim 2 , wherein the driving unit includes a sink-side transistor configured to draw the sink current from the control terminal of the switching element, and the limitation transistor has a lower current drawing capability than the sink-side transistor.

7. The driving circuit as set forth in claim 1 , wherein when the overcurrent is detected, the second limiter keeps the time constant of the first limiter reduced until the control voltage reaches the second reference voltage.

8. The driving circuit as set forth in claim 7 , wherein the first limiter includes an operational amplifier that is configured to operate with the time constant, has an output terminal connected to the control terminal of the switching element and is configured to regulate the control voltage based on a difference between the control voltage and the first reference voltage, and the second limiter includes: a control voltage comparator configured to compare the control voltage and the second reference voltage and outputs a result of the comparison; and a control circuit configured to reduce the time constant of the operational amplifier when the overcurrent is detected and the control voltage is higher than the second reference voltage.

9. The driving circuit as set forth in claim 7 , wherein the first limiter includes an operational amplifier that is configured to operate with the time constant, has an output terminal connected to the control terminal of the switching element and is configured to regulate the control voltage based on a difference between the control voltage and the first reference voltage, and the second limiter includes a control circuit configured to keep the time constant of the operational amplifier reduced until a predetermined period elapses after the overcurrent is detected.

10. The driving circuit as set forth in claim 8 , wherein the operational amplifier includes: a differential circuit configured to operate according to a difference between the control voltage and the first reference voltage; a time constant circuit positioned between an output end of the differential circuit and an output end of the operational amplifier; and a short switching unit configured to switch whether to short ends of the time constant circuit, and the control circuit instructs the short switching unit to short the ends of the time constant circuit when the overcurrent is detected and the control voltage is higher than the second reference voltage.

11. The driving circuit as set forth in claim 3 , wherein the operational amplifier transitions from a non-operational state to an operational state when the overcurrent is detected.

12. The driving circuit as set forth in claim 1 , wherein the driving unit includes a source-side transistor configured to feed the source current to the control terminal of the switching element, and the driving circuit further comprises a circuit configured to turn off the source-side transistor when the overcurrent is detected.

13. A semiconductor module comprising: the driving circuit as set forth in claim 1 ; and a semiconductor circuit including the switching element .